Safe Haskell | Safe-Inferred |
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Non-standard mathematical classes and class instances.
- class EqE a where
- class OrdE a where
- class RealFracE a where
- properFractionE :: a -> (a, a)
- truncateE :: a -> a
- roundE :: a -> a
- ceilingE :: a -> a
- floorE :: a -> a
- truncatef :: RealFrac a => a -> a
- roundf :: RealFrac a => a -> a
- ceilingf :: RealFrac a => a -> a
- floorf :: RealFrac a => a -> a
- roundTo_ :: Double -> Double -> Double
- roundTo :: UGen -> UGen -> UGen
- ceil :: UGen -> UGen
- midiCPS' :: Floating a => a -> a
- class (Floating a, Ord a) => UnaryOp a where
- ampDb :: a -> a
- asFloat :: a -> a
- asInt :: a -> a
- cpsMIDI :: a -> a
- cpsOct :: a -> a
- cubed :: a -> a
- dbAmp :: a -> a
- distort :: a -> a
- frac :: a -> a
- isNil :: a -> a
- log10 :: a -> a
- log2 :: a -> a
- midiCPS :: a -> a
- midiRatio :: a -> a
- notE :: a -> a
- notNil :: a -> a
- octCPS :: a -> a
- ramp_ :: a -> a
- ratioMIDI :: a -> a
- softClip :: a -> a
- squared :: a -> a
- class (Floating a, Ord a) => BinaryOp a where
- absDif :: a -> a -> a
- amClip :: a -> a -> a
- atan2E :: a -> a -> a
- clip2 :: a -> a -> a
- difSqr :: a -> a -> a
- excess :: a -> a -> a
- exprandRange :: a -> a -> a
- fill :: a -> a -> a
- firstArg :: a -> a -> a
- fold2 :: a -> a -> a
- gcdE :: a -> a -> a
- hypot :: a -> a -> a
- hypotx :: a -> a -> a
- iDiv :: a -> a -> a
- lcmE :: a -> a -> a
- modE :: a -> a -> a
- randRange :: a -> a -> a
- ring1 :: a -> a -> a
- ring2 :: a -> a -> a
- ring3 :: a -> a -> a
- ring4 :: a -> a -> a
- roundUp :: a -> a -> a
- scaleNeg :: a -> a -> a
- sqrDif :: a -> a -> a
- sqrSum :: a -> a -> a
- sumSqr :: a -> a -> a
- thresh :: a -> a -> a
- trunc :: a -> a -> a
- wrap2 :: a -> a -> a
- fmod :: Double -> Double -> Double
- wrap' :: Double -> Double -> Double -> Double
- genericWrap :: (Ord a, Num a) => a -> a -> a -> a
- wrap_ :: Double -> Double -> Double -> Double
- foldToRange :: (Ord a, Num a) => a -> a -> a -> a
- fold_ :: (Ord a, Num a) => a -> a -> a -> a
- clip' :: Ord a => a -> a -> a -> a
- clip_ :: Ord a => a -> a -> a -> a
Documentation
Variant on Eq class, result is of the same type as the values compared.
Variant on Ord class, result is of the same type as the values compared.
properFractionE :: a -> (a, a)Source
class (Floating a, Ord a) => UnaryOp a whereSource
Unary operator class.
map (floor . (* 1e4) . dbAmp) [-90,-60,-30,0] == [0,10,316,10000]
class (Floating a, Ord a) => BinaryOp a whereSource
Binary operator class.
exprandRange :: a -> a -> aSource
fmod :: Double -> Double -> DoubleSource
The SC3 %
operator is libc fmod function.
1.5 % 1.2 // ~= 0.3 -1.5 % 1.2 // ~= 0.9 1.5 % -1.2 // ~= -0.9 -1.5 % -1.2 // ~= -0.3
1.5 `fmod` 1.2 -- ~= 0.3 (-1.5) `fmod` 1.2 -- ~= 0.9 1.5 `fmod` (-1.2) -- ~= -0.9 (-1.5) `fmod` (-1.2) -- ~= -0.3
- 2 % 1.5 ~= 1.2 -1.2 % 1.5 ~= 0.3 1.2 % -1.5 ~= -0.3 -1.2 % -1.5 ~= -1.2
1.2 `fmod` 1.5 -- ~= 1.2 (-1.2) `fmod` 1.5 -- ~= 0.3 1.2 `fmod` (-1.5) -- ~= -0.3 (-1.2) `fmod` (-1.5) -- ~= -1.2
wrap' :: Double -> Double -> Double -> DoubleSource
Wrap k to within range (i,j), ie. AbstractFunction.wrap
.
map (wrap' 5 10) [3..12] == [8,9,5,6,7,8,9,10,6,7]
genericWrap :: (Ord a, Num a) => a -> a -> a -> aSource
Generic variant of wrap'
.
map (genericWrap (5::Integer) 10) [3..12] == [8,9,5,6,7,8,9,10,6,7]
wrap_ :: Double -> Double -> Double -> DoubleSource
Variant of wrap'
with SC3
argument ordering.
map (\n -> wrap_ n 5 10) [3..12] == map (wrap' 5 10) [3..12]
foldToRange :: (Ord a, Num a) => a -> a -> a -> aSource
Fold k to within range (i,j), ie. AbstractFunction.fold
map (foldToRange 5 10) [3..12] == [7,6,5,6,7,8,9,10,9,8]
fold_ :: (Ord a, Num a) => a -> a -> a -> aSource
Variant of foldToRange
with SC3
argument ordering.